Shielding cover for terminal device of electric appliance and compressor assembly having the same

ABSTRACT

Disclosed is a shielding cover for a terminal device of an electric appliance and a compressor assembly having the same which can be used in common regardless of the shapes of terminal devices such as overload protectors.  
     In the shielding cover for a terminal device of an electric appliance and the compressor assembly having the same, first and second receiving parts  61  and  62  which can receive selectively two or more terminal devices(overload protectors)  40  and  41  formed in different shapes are integrally formed at the shielding cover  50 . Accordingly, since the shielding cover  50  can be used in common regardless of the shapes of the terminal devices  40  and  41 , the whole manufacturing cost of an electric appliance such as a compressor assembly can be reduced.

CLAIM OF PRIORITY

[0001] This application makes reference to, incorporates the same herein, and claims all benefits accruing under 35 U.S.C. §119 from an application entitled TERMINAL APPARATUS PROTECTING COVER FOR ELECTRIC MANUFACTURED GOODS AND COMPRESSOR ASSEMBLY WITH PROTECTING COVER earlier filed in the Korean Industrial Property Office on the Dec. 7, 2000, and there duly assigned Serial No. 74325/2000.

BACKGROUND OF THE INVENTION

[0002] 1. Field of the Invention

[0003] The present invention relates to a shielding cover for a terminal device of an electric appliance and a compressor assembly having the same. More specially, the present invention relates to a shielding cover for a terminal device of an electric appliance and a compressor assembly having the same which covers a terminal device such as an overload protector for protecting a compressor from an overload by controlling an input power.

[0004] 2. Description of the Related Art

[0005] In general, since an electric appliance is operated by being supplied with an input power, a terminal device such as an overload protector which protects an appliance from an overload by controlling an input power is separately required, the terminal device being protected by a shielding cover.

[0006] By way of example of an appliance requiring such an overload protector, a compressor having a conventional shielding cover will be described herein.

[0007] A conventional compressor assembly includes an airtight container in which a driving motor and a compressing device are mounted, and an accumulator which guides an evaporated refrigerant into the airtight container. The accumulator which is formed as a cylindrical casing communicates with the airtight container via a refrigerant guiding pipe, and is mounted upright outside the airtight container by means of a holder.

[0008] On an outer surface of the airtight container, a power input terminal which is directly connected to the driving motor and an overload protector which protects the driving motor from the overload are disposed. And, the power input terminal and the overload protector are protected by a shielding cover. The overload protector is generally formed in a cylindrical shape. Also, the shielding cover has generally two covering parts, one of which shields the power input terminal and the other of which shields tightly the overload protector. Such a shielding cover is fixed by a stud bolt which is mounted upright to the outer surface of the airtight container, and the overload protector is concomitantly secured.

[0009] However, since the conventional shielding cover of the compressor assembly is formed to shield only a cylindrical overload protector, it can not be applied to any compressor assemblies having overload protectors formed in other shapes.

[0010] Especially, a rectangle-type overload protector is recently on the market more than a circle-type overload protector, because the rectangle-type protector is cheaper than the circle-type. Accordingly, when the rectangle-type overload protector is mounted to the compressor assembly, a shielding cover which can shield tightly the rectangle-type overload protector should be manufactured additionally, thereby the overall manufacturing cost of the compressor assembly being increased.

SUMMARY OF THE INVENTION

[0011] The present invention has been made in an effort to solve the above problems.

[0012] It is an object of the present invention to provide a shielding cover for a terminal device of an electric appliance and a compressor assembly having the same which can shield selectively two or more terminal devices(overload protectors) formed in different shapes and can be used in common.

[0013] In order to achieve the above object, the present invention provides a shielding cover for a terminal device of an electric appliance for protecting the terminal device, which is provided with plural receiving parts which can receive selectively two or more terminal devices formed in different shapes.

[0014] And, the present invention also provides a compressor assembly having a shielding cover for protecting an overload protector which is mounted outside an airtight container of a compressor and protects the compressor from an overload, in which plural receiving parts which can receive selectively two or more overload protectors formed in different shapes are provided at the shielding cover.

BRIEF DESCRIPTION OF THE DRAWINGS

[0015] The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate an embodiment of the invention, and, together with the description, serve to explain the principles of the invention:

[0016]FIG. 1 is a perspective view showing a rotary compressor assembly according to a preferred embodiment of the present invention;

[0017]FIG. 2 is an enlarged exploded-perspective view showing a circle-type overload protector and a shielding cover of a compressor assembly according to a preferred embodiment of the present invention;

[0018]FIG. 3 is an enlarged perspective view showing a coupled state of a circle-type overload protector and a shielding cover depicted in FIG. 2;

[0019]FIG. 4 is an enlarged exploded-perspective view showing a rectangle-type overload protector and a shielding cover of a compressor assembly according to another preferred embodiment of the present invention; and

[0020]FIG. 5 is an enlarged perspective view showing a coupled state of a rectangle-type overload protector and a shielding cover depicted in FIG. 4.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0021] Preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

[0022] In the present invention, by way of example of an electric appliance requiring a shielding cover for a terminal device, a rotary compressor assembly having a shielding cover will be described herein.

[0023] As shown in FIG. 1, a rotary compressor assembly, to which the present invention is applied, includes a rotary compressor 10 which is fixedly supported on a base plate A of an air conditioner, etc. by means of vibroisolating members B, and an accumulator 20 which is mounted upright to an outer side surface of the rotary compressor 10.

[0024] The rotary compressor 10 comprises a cylindrical airtight container 11 which has a refrigerant suction pipe 12 and a discharge pipe 13 for guiding the inflow and exhaust of the refrigerant respectively, a driving motor(not shown) which is disposed inside the airtight container 11 and generates a driving force by being supplied with a power via a power input terminal 30 (which will be described later), and a compressing device(not shown) which is supplied with the driving force of the motor, so as to suck, compress and discharge the refrigerant. At this time, the refrigerant flows in the airtight container 11 through the suction pipe 12 which is connected to a lower side surface of the container 11, and the refrigerant is exhausted through the discharge pipe 13 which is connected to a central portion of an outer upper surface of the container 11.

[0025] And, on the outer upper surface of the airtight container 11, a power input terminal 30 for being supplied with an external power, an overload protector 40 which is electrically connected to the power input terminal 30 and protects the compressor from the overload, and a shielding cover 50 for protecting the power input terminal 30 and the overload protector 40 are mounted. Non-described reference numeral 31 is a power supply wire which is directly connected to the overload protector 40, and through which the external power is applied.

[0026] The overload protector 40 is to control the operation of the compressor 10, i.e. the driving motor, when the motor is overloaded and an electric current value is large, the overload protector 40 being disposed adjacent to the power input terminal 30.

[0027] Referring to FIGS. 2 and 4, the overload protectors 40 and 41 are generally formed in a circle-type and a rectangle-type, the overload protectors 40 and 41 including terminals 40 a which are protruded upward to be electrically connected to the power input terminal 30. According to its lynx shape, the circle-type overload protector 40 (see FIG. 2) is called ¾ inch protector, and the rectangle-type overload protector 41 (see FIG. 4) is called 4TM protector.

[0028] The shielding cover 50 shields the power input terminal 30 and the overload protector 40 (or 41) together to protect them from foreign materials like moisture, and is detachably fixed by a stud bolt 70. The shielding cover 50 comprises an upper surface 51 which is formed with a through-hole 51 a at its central portion, a skirt portion 52 which is extended downward along a verge of the upper surface 51 and receives sufficiently the power input terminal 30 and the overload protector 40 (or 41), and a contacting portion 53 which is extended like a flange-shape along a lower end of the skirt portion 52 and contacts closely with the upper surface of the airtight container 11. The skirt portion 52 is formed with a drawing hole 54 through which the power supply wire 31 is drawn out, and the stud bolt 70 is disposed between the power input terminal 30 and the overload protector 40 (or 41).

[0029] Also, plural receiving parts 60, which can receive selectively two or more overload protectors 40 and 41 formed in different shapes and fix securely the protectors 40 and 41 regardless of the shapes thereof, are formed at a portion of the shielding cover 50. The detailed structure of the receiving parts 60 will be now described hereinafter with reference to FIGS. 2 and 4.

[0030] As aforementioned, the overload protectors 40 and 41 are generally formed in a circle-type and a rectangle-type which is cheaper than the circle-type.

[0031] And, at the skirt portion 52, plural receiving parts 60 are formed so that the shielding cover 50 can be used in common in compressor assemblies having the circle-type overload protector 40 or the rectangle-type overload protector 41. Describing more in detail, plural receiving parts 60 consist of a first receiving part 61 which is formed in about circle-shape for receiving the circle-type overload protector 40, and a second receiving part 62 which receives the both sides 41 a and 41 b of the rectangle-type overload protector 41.

[0032] Especially, the second receiving part 62 includes a pair of guiding grooves 62 a which are protruded symmetrically with each other in a radial direction from the side surface of the first receiving part 61 and extended in a longitudinal direction. Accordingly, the both sides 41 a and 41 b of the rectangle-type overload protector 41 are slidingly coupled in the guiding grooves 62 a, respectively. Also, it is preferable that an inner diameter D1 of the first receiving part 61 is substantially same as a diameter D2 of the circle-type overload protector 40, and a width W1 of the second receiving protector 62 and a length L1 between two guiding grooves 62 a are substantially same as a width W2 and a length L2 of the rectangle-type overload protector 41, respectively.

[0033] In the meantime, it is preferable that the skirt portion 52 having these first and second receiving parts 61 and 62 are integrally formed with the upper surface 51, the contacting portion 53 and the drawing hole 54, in manufacturing the shielding cover 50 by an injection molding of plastics.

[0034] As a result, in case of the circle-type overload protector 40, it is received in the first receiving part 61, and in case of the rectangle-type overload protector 41, it is received in the guiding grooves 62 a of the second receiving part 62, thereby the overload protector 40 (or 41) being securely fixed.

[0035] The assembling process and effect of the shielding cover will be described hereinafter.

[0036] First, the shielding cover for covering the circle-type overload protector is described with reference to FIGS. 2 and 3.

[0037] As shown in the drawings, when the circle-type overload protector 40 mounted on the upper surface of the airtight container 11 is covered with the shielding cover 50, the upper end of the stud bolt 70 is exposed via the through-hole 51 a and the overload protector 40 is received tightly in the first receiving part 61.

[0038] In this state, a nut 71 is fastened to the upper end of the stud bolt 70, so that the contact portion 53 of the shielding cover 50 contacts closely with the upper surface of the airtight container 11 and the overload protector 40 is kept securely mounted. Therefore, the shielding cover 50 prevents foreign materials from contacting with the power input terminal 30 and the overload protector 40. As a result, the applied power is safely supplied to the driving motor inside the airtight container 11 via the overload protector 40 and the power input terminal 30, so the rotary compressor 10 can be stably operated.

[0039] Next, the shielding cover for covering the rectangle-type overload protector is described with reference to FIGS. 4 and 5.

[0040] As shown in the drawings, when the rectangle-type overload protector 41 mounted on the upper surface of the airtight container 11 is covered with the shielding cover 50, the upper end of the stud bolt 70 is exposed via the through-hole 51 a and the both sides 41 a and 41 b of the overload protector 41 are received tightly in the guiding grooves 62 a of the second receiving part 62.

[0041] In this state, a nut 71 is fastened to the upper end of the stud bolt 70, so that the contact portion 53 of the shielding cover 50 contacts closely with the upper surface of the airtight container 11 and the overload protector 41 is kept securely mounted, thereby the rotary compressor 10 being operated stably.

[0042] Although various embodiments of a rotary compressor assembly which incorporate the teachings of the present invention have been shown and described herein, the object of the present invention is readily achieved also when the present invention is applied to a shielding cover which is mounted in any electric appliance having a terminal device such as an overload protector.

[0043] As described above in detail, according to a shielding cover for a terminal device of an electric appliance and a compressor assembly having the same of the present invention, first and second receiving parts which can receive selectively two or more terminal devices(overload protectors) formed in different shapes are integrally formed at a shielding cover. Accordingly, since the shielding cover can be used in common regardless of the shapes of the terminal devices, the whole manufacturing cost of an electric appliance such as a compressor assembly can be reduced. 

What is claimed is:
 1. A compressor assembly having a shielding cover for protecting an overload protector which is mounted outside an airtight container of a compressor and protects the compressor from an overload, being characterized in that: plural receiving parts which can receive selectively two or more overload protectors formed in different shapes are provided at the shielding cover.
 2. A compressor assembly having a shielding cover according to claim 1, wherein the airtight container is provided with a power input terminal which is spaced apart from the overload protector, the shielding cover receives the power input terminal and the overload protector together, and the plural receiving parts are formed at a portion of the shielding cover.
 3. A compressor assembly having a shielding cover according to claim 1 or 2, wherein the plural receiving parts consist of a first receiving part which is formed in about circle-shape for receiving a circle-type overload protector, and a second receiving part which is formed symmetrically at a side surface of the first receiving part for receiving a rectangle-type overload protector.
 4. A compressor assembly having a shielding cover according to claim 3, wherein the second receiving part is protruded in a radial direction from the side surface of the first receiving part for receiving both sides of the rectangle-type overload protector.
 5. A shielding cover for a terminal device of an electric appliance which protects the terminal device, being characterized in that: plural receiving parts which can receive selectively two or more terminal devices formed in different shapes are provided at the shielding cover.
 6. A shielding cover for a terminal device of an electric appliance according to claim 5, wherein the plural receiving parts consist of a first receiving part which is formed in about circle-shape for receiving a circle-type terminal device, and a second receiving part which is formed symmetrically at a side surface of the first receiving part for receiving a rectangle-type terminal device.
 7. A shielding cover for a terminal device of an electric appliance according to claim 6, wherein the second receiving part is protruded in a radial direction from the side surface of the first receiving part for receiving both sides of the rectangle-type terminal device. 